摘要
Fluorine-doped TiO2 sol(F-TiO2) was prepared by the modified precipitation-sol-hydrothermal crystallization method with TiCl4 as precursor.The influences of F doping, temperature and time of hydrothermal crystallization, medium pH value on the morphology and crystallization were studied.The particle size and structure of the prepared F-TiO2 sol as well as the interaction of F with TiO2 were characterized with XRD, UV-Vis-DRS, TEM, TG-DTA, FTIR and XPS.The results showed that F-TiO2 particles in sol were spherical, and partly crystallized to anatase.They were dispersed in the aqueous medium uniformly and showed narrow particle size distribution.The average particle size was 6.5 nm as calculated from XRD and TEM results.It was also shown that fluorine atoms were adsorbed by TiO2 sol particles in two forms.One was physically adsorbed on the surface of TiO2, and the other was embedded into TiO2 crystal lattice.It was found that the addition of fluorine could improve the crystallization of particle significantly, decrease the temperature and shorten the time of hydrothermal crystallization.The adsorption capacity, surface acidity and the photocatalytic activity for decomposition of Rhodamine B were enhanced remarkably with the doping of fluorine.The mechanism of improvement of the photocatalytic activity and structure of TiO2 by fluorine was discussed.
Fluorine-doped TiO2 sol crystallization method with TICl4 hydrothermal crystallization, medi (F-TiO2) was prepared by the modified as precursor. The influences of F dop um pH value on the morphology and cr precipitation-sol-hydrothermal ing, temperature and time of ystallization were studied. The particle size and structure of the prepared F-TiO2 sol as well as the interaction of F with TiO2 were characterized with XRD, UV-Vis DRS, TEM, TG DTA, FTIR and XPS. The results showed that F-TiO2 particles in sol were spherical, and partly crystallized to anatase. They were dispersed in the aqueous medium uniformly and showed narrow particle size distribution. The average particle size was 6.5 nm as calculated from XRD and TEM results. It was also shown that fluorine atoms were adsorbed by TiO2 sol particles in two forms. One was physically adsorbed on the surface of TiO2, and the other was embedded into TiO2 crystal lattice. It was found that the addition of fluorine could improve the crystallization of particle significantly, decrease the temperature and shorten the time of hydrothermal crystallization. The adsorption capacity, surface acidity and the photocatalytic activity for decomposition of Rhodamine B were enhanced remarkably with the doping of fluorine. The mechanism of improvement of the photocatalytic activity and structure of TiO2 by fluorine was discussed.
出处
《化工学报》
EI
CAS
CSCD
北大核心
2006年第11期2778-2784,共7页
CIESC Journal
基金
广东省自然科学基金重点项目(036555).~~
